Isobutyl acetate

Formula: C₆H₁₂O₂
Molecular weight: 116.1583
IUPAC Standard InChI: InChI=1S/C6H12O2/c1-5(2)4-8-6(3)7/h5H,4H2,1-3H3
IUPAC Standard InChIKey: GJRQTCIYDGXPES-UHFFFAOYSA-N
CAS Registry Number: 110-19-0
Chemical structure:
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Other names: Acetic acid, 2-methylpropyl ester; Acetic acid, isobutyl ester; β-Methylpropyl ethanoate; 2-Methylpropyl acetate; 2-Methyl-1-propyl acetate; Acetate d'isobutyle; Isobutyl ethanoate; 2-Methylpropyl ethanoate; Isobutylester kyseliny octove; UN 1213; 2-Methyl-1-propanol, acetate; i-Butyl acetate; NSC 8035; Isobutyl acetate fcc
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Van Den Dool and Kratz RI, non-polar column, temperature ramp

Go To: Top, References, Notes

Data compiled by: NIST Mass Spectrometry Data Center, William E. Wallace, director

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	5 % Phenyl methyl siloxane	DB-5	SPB-5	Petrocol DH	CP Sil 5 CB
Column length (m)	30.	30.	30.	50.	50.
Carrier gas		N2	He	He	He
Substrate
Column diameter (mm)	0.25	0.32	0.53	0.25	0.32
Phase thickness (μm)	0.25	1.	1.5	0.5	0.4
T_start (C)	60.	40.	100.	35.	60.
T_end (C)	270.	230.	250.	200.	280.
Heat rate (K/min)	15.	4.	5.	3.	3.
Initial hold (min)		2.		10.	10.
Final hold (min)	15.	10.		10.	60.
I	783.	788.	753.	767.2	741.
Reference	Zaikin, 2010	Fang and Qian, 2005	Rodríguez-Burruezo, Kollmannsberger, et al., 2004	Censullo, Jones, et al., 2003	Pino and Marbot, 2001
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	CP Sil 5 CB	HP-5	DB-5	DB-1	DB-1
Column length (m)	50.	30.	20.	30.	60.
Carrier gas	He	He	He	He	He
Substrate
Column diameter (mm)	0.32	0.25	0.25	0.32	0.248
Phase thickness (μm)	0.4			5.	0.25
T_start (C)	60.	50.	50.	35.	50.
T_end (C)	280.	200.	350.	270.	250.
Heat rate (K/min)	3.	4.	5.5	10.	5.
Initial hold (min)	10.	1.		1.
Final hold (min)	60.
I	741.	781.	779.	756.	755.
Reference	Pino, Marbot, et al., 2001	Shalit, Katzir, et al., 2001	Komárek, Richter, et al., 1998	Bartelt, 1997	Lee, DeMilo, et al., 1997
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	DB-1	DB-1	DB-5	OV-101	OV-101
Column length (m)	60.	60.	0.32	26.	26.
Carrier gas	He	He	H2
Substrate
Column diameter (mm)	0.248	0.248	1.	0.26	0.26
Phase thickness (μm)	0.25	0.25		0.3	0.3
T_start (C)	50.	50.	30.	100.	60.
T_end (C)	250.	250.	180.	240.	240.
Heat rate (K/min)	5.	5.	1.5	2.	2.
Initial hold (min)			5.
Final hold (min)
I	755.	755.	770.	745.3	748.4
Reference	Lee, DeMilo, et al., 1997	Lee, DeMilo, et al., 1997	Guichard and Souty, 1988	Wang and Sun, 1987	Wang and Sun, 1987
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	OV-101	OV-101	OV-101	OV-101	OV-101
Column length (m)	26.	21.5	21.5	26.5	24.
Carrier gas
Substrate
Column diameter (mm)	0.26	0.27	0.27	0.25	0.26
Phase thickness (μm)	0.3	2.	0.14	0.14	0.5
T_start (C)	60.	60.	60.	70.	80.
T_end (C)	240.	240.	240.	240.	240.
Heat rate (K/min)	8.	6.	6.	9.	6.
Initial hold (min)				4.08
Final hold (min)
I	749.7	752.1	749.8	748.7	754.45
Reference	Wang and Sun, 1987	Wang and Sun, 1987	Wang and Sun, 1987	Wang and Sun, 1987, 2	Wang, Zhong, et al., 1987
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	OV-1	OV-1	OV-101	OV-101	OV-101
Column length (m)	30.	30.	50.	50.	50.
Carrier gas	He	He
Substrate
Column diameter (mm)	0.5	0.5	0.27	0.27	0.27
Phase thickness (μm)	0.8	0.8
T_start (C)	40.	40.	110.	125.	80.
T_end (C)	220.	220.
Heat rate (K/min)	2.	2.	2.	2.	3.
Initial hold (min)
Final hold (min)
I	754.	754.	747.	746.	750.
Reference	De Pooter, Omar, et al., 1985	De Pooter, Omar, et al., 1985	Wang and Sun, 1985	Wang and Sun, 1985	Wang and Sun, 1985
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

Column type	Capillary	Capillary	Capillary	Capillary	Capillary
Active phase	OV-101	OV-101	SE-30	SE-30	SE-52
Column length (m)	50.	50.	25.	25.	150.
Carrier gas					He
Substrate
Column diameter (mm)	0.27	0.27	0.3	0.3	0.6
Phase thickness (μm)
T_start (C)	80.	95.	50.	50.	10.
T_end (C)					200.
Heat rate (K/min)	4.	2.	6.	6.	1.
Initial hold (min)
Final hold (min)
I	750.	748.	749.	749.	782.
Reference	Wang and Sun, 1985	Wang and Sun, 1985	Korhonen, 1984	Korhonen, 1984	de Pooter, Montens, et al., 1983
Comment	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI	MSDC-RI

References

Go To: Top, Van Den Dool and Kratz RI, non-polar column, temperature ramp, Notes

Zaikin, 2010
Zaikin, V.G., Personal communication: Retention indices measured during 2010, 2010. [all data]

Fang and Qian, 2005
Fang, Y.; Qian, M., Aroma compounds in Oregon Pinot Noir wine determined by aroma extract dilution analysis (AEDA), Flavour Fragr. J., 2005, 20, 1, 22-29, https://doi.org/10.1002/ffj.1551 . [all data]

Rodríguez-Burruezo, Kollmannsberger, et al., 2004
Rodríguez-Burruezo, A.; Kollmannsberger, H.; Prohens, J.; Nitz, S.; Nuez, F., Analysis of the volatile aroma constituents of parental and hybrid clones of pepino (Solanum muricatum), J. Agric. Food Chem., 2004, 52, 18, 5663-5669, https://doi.org/10.1021/jf040107w . [all data]

Censullo, Jones, et al., 2003
Censullo, A.C.; Jones, D.R.; Wills, M.T., Speciation of the volatile organic compounds (VOCs) in solventborne aerosol coatings by solid phase microextraction-gas chromatography, J. Coat. Technol., 2003, 75, 936, 47-53, https://doi.org/10.1007/BF02697922 . [all data]

Pino and Marbot, 2001
Pino, J.A.; Marbot, R., Volatile flavor constituents of acerola (Malpighia emarginata DC.) fruit, J. Agric. Food Chem., 2001, 49, 12, 5880-5882, https://doi.org/10.1021/jf010270g . [all data]

Pino, Marbot, et al., 2001
Pino, J.A.; Marbot, R.; Vázquez, C., Characterization of volatiles in strawberry guava (Psidium cattleianum Sabine) fruit, J. Agric. Food Chem., 2001, 49, 12, 5883-5887, https://doi.org/10.1021/jf010414r . [all data]

Shalit, Katzir, et al., 2001
Shalit, M.; Katzir, N.; Tadmor, Y.; Larkov, O.; Burger, Y.; Shalekhet, F.; Lastochkin, E.; Ravid, U.; Amar, O.; Edelstein, M.; Karchi, Z.; Lewinsohn, E., Acetyl-CoA: alcohol acetyltransferase activity and aroma formation in ripening melon fruits, J. Agric. Food Chem., 2001, 49, 2, 794-799, https://doi.org/10.1021/jf001075p . [all data]

Komárek, Richter, et al., 1998
Komárek, K.; Richter, P.; Hoffmann, J., Capillary gas chromatography of n-butyl and isobutyl-, n-amyl and isoamyl polyethylene glycol ethers and their derivatives, J. Chromatogr. A, 1998, 800, 2, 305-315, https://doi.org/10.1016/S0021-9673(97)01144-8 . [all data]

Bartelt, 1997
Bartelt, R.J., Calibration of a commercial solid-phase microextraction device for measuring headspace concentrations of organic volatiles, Anal. Chem., 1997, 69, 3, 364-372, https://doi.org/10.1021/ac960820n . [all data]

Lee, DeMilo, et al., 1997
Lee, C.-J.; DeMilo, A.B.; Moreno, D.S.; Mangan, R.L., Identification of the volatile components of E802 Mazoferm steepwater, a condensed fermented corn extractive highly attractive to the Mexican fruit fly (Diptera: Tephritidae), J. Agric. Food Chem., 1997, 45, 6, 2327-2331, https://doi.org/10.1021/jf960632y . [all data]

Guichard and Souty, 1988
Guichard, E.; Souty, M., Comparison of the relative quantities of aroma compounds found in fresh apricot (Prunus armeniaca) from six different varieties, Z. Lebensm. Unters. Forsch., 1988, 186, 4, 301-307, https://doi.org/10.1007/BF01027031 . [all data]

Wang and Sun, 1987
Wang, T.; Sun, Y., On the influence of the solute sample size on temperature-programmed retention indices, J. Hi. Res. Chromatogr. Chromatogr. Comm., 1987, 10, 11, 603-606, https://doi.org/10.1002/jhrc.1240101105 . [all data]

Wang and Sun, 1987, 2
Wang, T.; Sun, Y., Reproducibility of Temperature-Programmed Retention Indices on Several OV-101 Columns, J. Chromatogr., 1987, 407, 79-86, https://doi.org/10.1016/S0021-9673(01)92606-8 . [all data]

Wang, Zhong, et al., 1987
Wang, T.; Zhong, B.; Chen, M.; Sun, Y., Definitions and Methods of Calculation of the Temperature-Programmed Retention Index, I_TP. III. A Simplified Calculation Method Based on the Extended Kovats Definition, J. Chromatogr., 1987, 390, 2, 275-283, https://doi.org/10.1016/S0021-9673(01)94381-X . [all data]

De Pooter, Omar, et al., 1985
De Pooter, H.L.; Omar, M.N.; Coolsaet, B.A.; Schamp, N.M., The Essential Oil of Greater Galanga (Alpinia Galanga) from Malaysia, Phytochemistry, 1985, 24, 1, 93-96, https://doi.org/10.1016/S0031-9422(00)80814-6 . [all data]

Wang and Sun, 1985
Wang, T.; Sun, Y., Correlation of Retention Indices obtained with Two Temperature Programmes, J. Chromatogr., 1985, 330, 167-171, https://doi.org/10.1016/S0021-9673(01)81973-7 . [all data]

Korhonen, 1984
Korhonen, I.O.O., Gas-Liquid Chromatographic Analyses. XXV. Branched-Chain C₃-C₅ Alkyl Esters of Halogenated Acetic Acids, J. Chromatogr., 1984, 288, 51-69, https://doi.org/10.1016/S0021-9673(01)93681-7 . [all data]

de Pooter, Montens, et al., 1983
de Pooter, H.L.; Montens, J.P.; Willaert, G.A.; Dirinck, P.J.; Schamp, N.M., Treatment of golden delicious apples with aldehydes and carboxylic acids: effect on the headspace composition, J. Agric. Food Chem., 1983, 31, 4, 813-818, https://doi.org/10.1021/jf00118a034 . [all data]

Notes

Go To: Top, Van Den Dool and Kratz RI, non-polar column, temperature ramp, References

Symbols used in this document:

T_end Final temperature

T_start Initial temperature
Data from NIST Standard Reference Database 69: NIST Chemistry WebBook
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